210    CHAPTER 10 THERMODYNAMICS OF COMBUSTION




                                           Light distillates  Fuel to run
                                         (chemical feedstock)  refinery     Heavy fuel
                                              10%            6%             or fuel oil
                                                                             (marine)
                                                                              17%




                        Petrol
                        25%






                                                                            28%
                                         17%                          Middle  distillates (gas
                                     Kerosene (paraffin,  1%          oil, diesel, heating oil)
                                      aviation fuel)  Gases (butane,
                                                     propane)
             FIGURE 10.1
             Typical constituents of a barrel of crude oil.


             sensors are fitted to engines, and these retard the ignition when knock is detected. Octane number is
             evaluated by running a calibration engine on the fuel and comparing its performance with the engine
             using a mixture of isooctane (100) and heptane (0). The octane number is equal to the proportion of
             octane in the calibration mixture. A high octane number does not indicate that the fuel has more energy
             than one with a low octane number. Two octane numbers are quoted: the Research Octane Number
             (RON) determined simply by varying the compression ratio, and the Motor Octane Number (MON)
             which is assessed under more realistic operating conditions. MON is usually between 8 and 10 points
             lower than RON.
                Fuels for compression ignition, or diesel, engines require a high cetane number (CN): this is a
             measure of the ability of the fuel to ignite after compression – it is almost the inverse of the octane
             number. Higher cetane fuels will have shorter ignition delay periods than lower cetane fuels. There-
             fore, higher cetane fuel usually causes an engine to run more smoothly and quietly, and reduces diesel
             ‘knock’, which occurs when the fuel that has been initially injected into the cylinder suddenly ignites
             (see Fig. 16.7). Generally, diesel engines operate well with a CN from 40 to 55, and modern high-speed
             diesel engines operate more effectively with higher CN fuels. Diesel fuel is about 11% denser than
             petrol, while the lower enthalpy of combustion is about the same – hence the energy per unit volume is
             about 11% higher, so (for equivalent energy of combustion) a diesel engine should have a fuel con-
             sumption (miles/gallon) at least 11% higher.
                In general, for any given aircraft turbine application, the optimal fuel is the one that represents the
             best compromise to the various problems confronting the fuel companies, the engine and aircraft
             manufacturers and the operators. For civil aircraft the main requirements are safety, reliability, low
             cost and ease of handling. For military aircraft fuel cost is of secondary importance compared with